ADP123-BL1-EVZ Analog Devices Inc, ADP123-BL1-EVZ Datasheet - Page 12
ADP123-BL1-EVZ
Manufacturer Part Number
ADP123-BL1-EVZ
Description
Linear Regulator Eval. Board
Manufacturer
Analog Devices Inc
Datasheet
1.ADP122UJZ-REDYKIT.pdf
(20 pages)
Specifications of ADP123-BL1-EVZ
Silicon Manufacturer
Analog Devices
Application Sub Type
LDO
Kit Application Type
Power Management - Voltage Regulator
Silicon Core Number
ADP123
Kit Contents
Board, Starter Guide
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
ADP122/ADP123
APPLICATIONS INFORMATION
CAPACITOR SELECTION
Output Capacitor
The ADP122/ADP123 are designed for operation with small,
space-saving ceramic capacitors, but these devices can function
with most commonly used capacitors as long as care is taken to
ensure an appropriate effective series resistance (ESR) value. The
ESR of the output capacitor affects the stability of the LDO control
loop. A minimum of 0.70 μF capacitance with an ESR of 1 Ω or
less is recommended to ensure stability of the ADP122/ADP123.
The transient response to changes in load current is also affected by
the output capacitance. Using a larger value of output capacitance
improves the transient response of the ADP122/ADP123 to
dynamic changes in load current. Figure 28 and Figure 29 show
the transient responses for output capacitance values of 1 μF and
4.7 μF, respectively.
Input Bypass Capacitor
Connecting a 1 μF capacitor from VIN to GND reduces the circuit
sensitivity to the printed circuit board (PCB) layout, especially
when a long input trace or high source impedance is encountered.
If greater than 1 μF of output capacitance is required, the input
capacitor should be increased to match it.
1
2
1
2
CH1
CH1
Figure 29. Output Transient Response, C
Figure 28. Output Transient Response, C
200mA Ω
200mA Ω
B
B
W
W
1mA TO 300mA LOAD STEP
1mA TO 300mA LOAD STEP
CH2 50.0mV
CH2 20.0mV
V
V
I
I
OUT
OUT
OUT
OUT
B
W
M 400ns
T
M 400ns A CH1
T
15.00%
14.80%
A CH1
OUT
V
V
OUT
V
V
IN
OUT
IN
OUT
= 4.7 μF
= 3.7V
= 1 μF
= 3.7V
= 3.3V
= 3.3V
196mA
196mA
Rev. 0 | Page 12 of 20
Input and Output Capacitor Properties
Any good quality ceramic capacitors can be used with the ADP122/
ADP123, as long as the capacitor meets the minimum capacitance
and maximum ESR requirements. Ceramic capacitors are manu-
factured with a variety of dielectrics, each with different behavior
over temperature and applied voltage. Capacitors must have an
adequate dielectric to ensure the minimum capacitance over the
necessary temperature range and dc bias conditions. Using an
X5R or X7R dielectric with a voltage rating of 6.3 V or 10 V is
recommended. However, using Y5V and Z5U dielectrics is not
recommended for any LDO, due to their poor temperature and
dc bias characteristics.
Figure 30 depicts the capacitance vs. capacitor voltage bias charac-
teristics of a 0603, 1 μF, 6.3 V X5R capacitor. The voltage stability of
a capacitor is strongly influenced by the capacitor size and the
voltage rating. In general, a capacitor in a larger package or of a
higher voltage rating exhibits better stability. The temperature
variation of the X5R dielectric is about ±15% over the −40°C to
+85°C temperature range and is not a function of package or
voltage rating.
Equation 1 can be used to determine the worst-case capacitance,
accounting for capacitor variation over temperature, component
tolerance, and voltage.
where:
C
TEMPCO is the worst-case capacitor temperature coefficient.
TOL is the worst-case component tolerance.
In this example, the worst-case temperature coefficient (TEMPCO)
over −40°C to +85°C is assumed to be 15% for an X5R dielectric.
The tolerance of the capacitor (TOL) is assumed to be 10%, and
C is 0.96 μF at 4.2 V from the graph in Figure 30.
Substituting these values in Equation 1 yields
EFF
is the effective capacitance at the operating voltage.
C
C
Figure 30. Capacitance vs. Capacitor Voltage Bias Characteristics
EFF
EFF
1.10
1.05
1.00
0.95
0.90
0.85
0.80
0.75
0.70
= C × (1 − TEMPCO) × (1 − TOL)
= 0.96 μF × (1 − 0.15) × (1 − 0.1) = 0.734 μF
0
1
2
BIAS VOLTAGE (V)
3
4
5
6
7
(1)
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